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Bruker BioSpin

Nuclear magnetic resonance spectrometer - 600 MHz | AVANCE IVDr

Pre-Clinical Screening and In Vitro Diagnostics (IVD)
High Throughput NMR for Development and Validation of High-Quality and Cost-Effective IVD-by-NMR research and pre-clinical in vitro Screening Assays

Standardized nuclear magnetic resonance (NMR) spectroscopy platform enabling cost-effective, high-performance...

Nuclear magnetic resonance spectrometer - 600 MHz | AVANCE IVDr

Pre-Clinical Screening and In Vitro Diagnostics (IVD)
High Throughput NMR for Development and Validation of High-Quality and Cost-Effective IVD-by-NMR research and pre-clinical in vitro Screening Assays

Standardized nuclear magnetic resonance (NMR) spectroscopy platform enabling cost-effective, high-performance NMR pre-clinical screening and IVD-by-NMR discovery and validation (on RUO Level) of novel NMR assays. The new AVANCE IVDr system, presently for research use only, is a complete, proven and standardized platform for NMR pre-clinical research and screening, as well as for IVD-by-NMR research.
It features high sensitivity and information-rich output at 600 MHz proton-NMR frequency, and incorporates advanced hardware, software, automation, spectral libraries and standard operating procedures (SOPs) for high-performance biofluid assay validation and pre-clinical screening. Customer benefits include higher information content and spectral feature differentiation compared to low-field NMR systems, as well as excellent reproducibility, high throughput and potentially dramatically lower cost per sample for better preparation and support of clinical screening and IVD-by-NMR discovery and validation (on RUO level).

Imaging probe / nuclear magnetic resonance - 52 mm | Micro 5

The micro-imaging probe Micro 5 has been developed for applications with standard bore magnets (52 mm ID) for the investigation of small objects with diameters of < 1 mm to max. 10 mm.
Gradient System
Bruker’s Streamline gradient technology provides excellent active...

Imaging probe / nuclear magnetic resonance - 52 mm | Micro 5

The micro-imaging probe Micro 5 has been developed for applications with standard bore magnets (52 mm ID) for the investigation of small objects with diameters of < 1 mm to max. 10 mm.
Gradient System
Bruker’s Streamline gradient technology provides excellent active...

Imaging probe / nuclear magnetic resonance - 89 mm | MicWB40

MicWB40 Probe in combination with the Micro2.5 Gradient System
The MicWB40 probe has been developed for micro-imaging of small objects (max. diam. 30 mm) in wide bore magnets (89 mm ID). The probe has an outer diameter of 40 mm and fits into the separate Micro2.5 gradient system.
The MicWB40 is assembled from separate modular components: probe...

Imaging probe / nuclear magnetic resonance - 89 mm | MicWB40

MicWB40 Probe in combination with the Micro2.5 Gradient System
The MicWB40 probe has been developed for micro-imaging of small objects (max. diam. 30 mm) in wide bore magnets (89 mm ID). The probe has an outer diameter of 40 mm and fits into the separate Micro2.5 gradient system.
The MicWB40 is assembled from separate modular components: probe body, exchangeable radio frequency (rf) inserts, variable temperature kit, animal bed, sample holders.
The probe can be configured for in vivo investigations and for materials investigations, just by combining an animal bed or a variable temperature kit with the probe body.
Electrical connections with rf filters are available for connecting a body temperature sensor and ecg electrodes to monitor the heart beat and to enable cardiac triggered data acquisition. Tubes are built in with Luer connectors from the bottom of the probe to the region of the rf-coils for the application of anaesthetics and for the connection of a pressure based respiratory sensor for controlling the animal and to acquire respiration triggered images without motion artefacts.
When necessary, the in vivo and the variable temperature fittings can be easily removed from the probe body to obtain a free-access bore of 19 mm diameter from the bottom to the top of the probe body and into the rf-resonator to support flow measurements.

Imaging probe / nuclear magnetic resonance - MiniWB57 series

The MiniWB57 probe with an outer diameter of 57 mm has been developed for micro-imaging studies of larger objects or animals in wide bore magnets (89 mm ID). The probe is combined with the Mini0.75 gradient system (0.75 G/cm/A).
The MiniWB57 probe is comprised of a probe...

Imaging probe / nuclear magnetic resonance - MiniWB57 series

The MiniWB57 probe with an outer diameter of 57 mm has been developed for micro-imaging studies of larger objects or animals in wide bore magnets (89 mm ID). The probe is combined with the Mini0.75 gradient system (0.75 G/cm/A).
The MiniWB57 probe is comprised of a probe body, exchangeable single or double frequency volume resonators of 40 mm inner diameter and a separate Animal Handling System which offers increased flexibility for in-vivo studies because the position of the animal can be changed relative to the rf-coil, while the animal remains inside the magnet.
Electrical connections with rf filters are available in the Animal Handling System for connecting a body temperature sensor and ecg electrodes to monitor the heart beat and to enable cardiac triggered data acquisition. Tubes are built in with Luer connectors from the bottom of the probe to the region of the rf-coils for the application of anesthetics and for the connection of a pressure based respiratory sensor for controlling the animal and to acquire respiration triggered images without motion artifacts.

Imaging probe / nuclear magnetic resonance / vertical - Super Wide Bore

Vertical super wide bore magnets with bore diameters of 154 mm and field strengths up to 9.4 T have been used for imaging studies for some time. Now, even higher field strengths of up to 11.7 T have become available. A particular advantage of the super wide bore magnets is the large volume of homogeneous field that is produced.
Gradient System
An increasing number of imaging applications...

Imaging probe / nuclear magnetic resonance / vertical - Super Wide Bore

Vertical super wide bore magnets with bore diameters of 154 mm and field strengths up to 9.4 T have been used for imaging studies for some time. Now, even higher field strengths of up to 11.7 T have become available. A particular advantage of the super wide bore magnets is the large volume of homogeneous field that is produced.
Gradient System
An increasing number of imaging applications demand the ultra-high magnetic fields with increased requirements to gradient and shimming technology. Bruker BioSpin therefore is introducing the BGA-S series, a complete new series of high performance actively shielded gradient systems with integrated shim coils.
Superior performance on the following major characteristics can thus be achieved:
Ultra high gradient strength
Very short gradient slew rates
Excellent gradient duty cycle
Optimal gradient linearity
Very high gradient shielding quality
Maximal shim strength
RF Section
Customized probes with fixed or exchangeable resonators of different inner diameters up to 72 mm support best filling factors and highest sensitivities for various object sizes.
Applications
The vertical orientation of the magnet bore is mandatory for many studies in material science, chemical and process engineering, where the orientation of the magnetic field has to be parallel to the direction of gravitation.
Typical investigations are studies of:
Transport phenomena driven by the gravity field
Multiphase flow
Inhomogeneous compounds (liquid/gas)
Mixing, demixing & sedimentation
Simulation and scaling of reactors, where chemical reactions may depend on transport processes, driven by gravity
Oxford Instruments Industrial Analysis

NMR spectrometer / nuclear magnetic resonance - MQC

The benchtop NMR MQC analyser addresses a range of industry-specific Quality Control requirements with the use of reliable and simple-to-use technology. In most industries there is a need to accurately, reliably and simply measure the amount of a viscous or liquid component...

NMR spectrometer / nuclear magnetic resonance - MQC

The benchtop NMR MQC analyser addresses a range of industry-specific Quality Control requirements with the use of reliable and simple-to-use technology. In most industries there is a need to accurately, reliably and simply measure the amount of a viscous or liquid component in the presence of other solid materials. The MQC meets this requirement with a technology that avoids the needs to separate the different phases. It includes making sample preparation trivial, removing the need for extensive operator training and provides fast accurate results.

It ensures a more consistent product from your manufacturing operations, better process control and reduced costs. The development and applications teams have created industry-specific applications for various materials. It includes lubricant on fibre, yarn or textile - spin finish, oil pick up (OPU), finish on yarn (FOY), avivage and Oil content of oilseeds. It also has Oil content of snack foods Oil and fat content of foodstuffs Solid Fat Content (SFC) Xylene solubles in polypropylene Oil.

NMR spectrometer / nuclear magnetic resonance - GeoSpec2

The Oxford Instruments GeoSpec 2 is used in almost all international major oil producers and SCAL laboratories. Through our partnership with Green Imaging Technologies, we have made the...

NMR spectrometer / nuclear magnetic resonance - GeoSpec2

The Oxford Instruments GeoSpec 2 is used in almost all international major oil producers and SCAL laboratories. Through our partnership with Green Imaging Technologies, we have made the production of comprehensive NMR core analysis results possible even without the presence of an NMR expert. To reduce artifacts due to ferromagnetic material in the samples and to mimic the operation of NMR logging tools, GeoSpec models operate at 2 MHz. Also, there are also higher field versions for special applications, and these Geospec models are available in 3 different sizes for accommodation of cores with different diameters from 1 to full-core. Moreover, these are incorporated with Q-sense for enhanced signal-to-noise and ultra-short echo times

Nuclear magnetic resonance spectrometer / NMR - Pulsar

Pulsar serves as a high resolution, benchtop, cryogen-free NMR analyser. The device uses 60 MHz rare-earth permanent magnet. The cryogen-free system offers high resolution (

Nuclear magnetic resonance spectrometer / NMR - Pulsar

Pulsar serves as a high resolution, benchtop, cryogen-free NMR analyser. The device uses 60 MHz rare-earth permanent magnet. The cryogen-free system offers high resolution (
Professor David Haddleton in the Department of Chemistry, University of Warwick, UK has trialled Pulsar in his undergraduate laboratory. Pulsar was introduced at Warwick into a year three synthetic chemistry undergraduate laboratory and used to follow real time organic, inorganic and polymer reactions taken direct from the reaction medium. Installation was simply plugging in the 13A plug and leaving to warm up overnight.

Dynamic nuclear polarizer - HyperSense

HyperSense - the in-vitro Dynamic nuclear polarization Polarizer: HyperSense transports considerable improvement of nuclear roll polarisation by active nuclear polarisation (Dynamic nuclear polarization). The consequential hyperpolarised substrates are obtainable...

Dynamic nuclear polarizer - HyperSense

HyperSense - the in-vitro Dynamic nuclear polarization Polarizer: HyperSense transports considerable improvement of nuclear roll polarisation by active nuclear polarisation (Dynamic nuclear polarization). The consequential hyperpolarised substrates are obtainable in the fluid-form, enabling the nuclear magnetic resonance consumer to gain from very high ranks of sensitivity. Improved nuclear magnetic resonance signals achievable with 15N, 13C, 31P and 29Si nuclei have the prospective to enhance the variety of tests in chemistry, physics, medicine and biochemistry. Examples comprise: Observation of fast cellular metabolism, element kinetic revisions, nuclear magnetic resonance of multifaceted bio-mixtures and shorter information compilation times and application of smaller quantities of sample. HyperSense as well offers your spectrometer double functionality by enabling you to toggle between conservative nuclear magnetic resonance and Dynamic nuclear polarization-supported spectroscopy. HyperSense is not sold for in-vivo application.
Jeol

FT spectrometer / nuclear magnetic resonance / multi-channel / compact - 400 MHz - 1 GHz | JNM-ECZR series

JNM-ECZR series is a new system that fully incorporates the latest digital and high frequency technologies.
Improved reliability...

FT spectrometer / nuclear magnetic resonance / multi-channel / compact - 400 MHz - 1 GHz | JNM-ECZR series

JNM-ECZR series is a new system that fully incorporates the latest digital and high frequency technologies.
Improved reliability and a more compact size make possible by incorporating more advanced integrated circuits, it supports even greater expandability options than current models for multi-channel operation, high power amplifiers and other accessories.
The bus line for control of attachments has been upgraded to high speed and enables highly accurate and rapid control.
400 MHz - 1 GHz

Nuclear magnetic resonance spectrometer / coupling - 400 MHz | JNM-ECZS series

The entry model ECZS spectrometer has the same basic functions, performance and capability of high-end model. The main console is...

Nuclear magnetic resonance spectrometer / coupling - 400 MHz | JNM-ECZS series

The entry model ECZS spectrometer has the same basic functions, performance and capability of high-end model. The main console is amazingly small, less than 1/2 that of the current ECS series spectrometer.
Coupling the use of advanced software with highly reliable automation, all routine daily measurements can be automated, while the use of the autotune Supercool probe realizes the worlds highest sensitivity in its class.
Whatever your application field ECZS can demonstrate its power.
400 MHz

Nuclear magnetic resonance spectrometer - 1 GHz | JNM-ECA series

From a family of FT NMR spectrometers comes the JNM-ECA series.

These products employ the latest digital technology....

Nuclear magnetic resonance spectrometer - 1 GHz | JNM-ECA series

From a family of FT NMR spectrometers comes the JNM-ECA series.

These products employ the latest digital technology. They benefit from high field magnet progress to include 1GHz. Its other notable attributes uphold both traditional NMR applications such as evaluation of materials and structural analysis of molecules, and future science and technologies development that consist of inquiries for postgenome research, drugs and other new material improvements.

FT spectrometer / nuclear magnetic resonance - 1 GHz | JNM-ECX series

The JNM-ECX series is an FT NMR spectrometer developed making full use of the latest digital and high frequency technology. This high performance,...

FT spectrometer / nuclear magnetic resonance - 1 GHz | JNM-ECX series

The JNM-ECX series is an FT NMR spectrometer developed making full use of the latest digital and high frequency technology. This high performance, sophisticated spectrometer designed to take advantage of high field magnet development to include 1GHz. Innovative features to support not only the conventional NMR applications such as structural analysis of molecules and evaluation of materials but also future progress of science and technologies including research for development of new drugs, postgenome research and development of new materials.

Electronic paramagnetic resonance spectrometer - JES-FA series

The JES-FA Series ESR can be easily utilized in a variety of implementations ranging from standard...

Electronic paramagnetic resonance spectrometer - JES-FA series

The JES-FA Series ESR can be easily utilized in a variety of implementations ranging from standard operations up to more highly specialized research functions. It has numerous features including complete computer administration, highly exceptional sensitivity, straightforward application in addition to the presence of a built-in revolutionary magnetic field control system.
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